M. G. Barron, Bioconcentralion. Enuiron. Sci. Technol. U', pp.1612-1618, 1990.

J. L. Hamelink, Current bioconcentration test methods and theory. ln, Aquatic Toxicology and Hazard Evaluation ASTM STP 63f, pp.149-161, 1977.

J. Kanazawa, Measurement of the bioconcentration factors of pesticides by freshwater fish and their correlation with physicochemical properties or acute toxicities, Pesticide Science, vol.5, issue.4, pp.12-417424, 1981.
DOI : 10.1007/BF01685591

G. Schùûrmann and W. Klein, Advances in bioconcentration prediction, Chemosphere, vol.17, issue.8, pp.55-574, 1988.
DOI : 10.1016/0045-6535(88)90207-X

R. L. Bahnick, D. A. Doucette, and W. , Use of molecular connectivity indices to estimate soil sorption coefficients for organic chemicals, Chemosphere, vol.17, issue.9, pp.1703-1715, 1988.
DOI : 10.1016/0045-6535(88)90098-7

D. Domine, J. Devillers, M. Chastrette, and W. Karcher, Multivariate structure-property relationships (MSPR) of pesticides, Pesticide Science, vol.16, issue.1, pp.73-82, 1992.
DOI : 10.1016/0098-3004(90)90058-2

J. Devillers, W. Karcher, and P. Isnard, Graphical display of the fugacity model level I, Chemosphere, vol.23, issue.5, pp.633-642, 1991.
DOI : 10.1016/0045-6535(91)90285-L

J. Devillers, J. Thioulouse, D. Domine, M. Chastrette, and K. , , 1991.

, Multivariate analysis of the input and output data in the fugacity model level I. ln, Applied Multivariate Analysis in SAR and Environmental Studies

R. Jaffé, Fate of hydrophobic organic pollutants in the aquatic environment: A review, Environmental Pollution, vol.69, issue.2-3, pp.237-257, 1991.
DOI : 10.1016/0269-7491(91)90147-O

D. Mackay, Multimedia Environmental Models. The Fugaciry Approach, 1991.

T. E. Mckone, The Precision of QSAR Methods For Estimating Intermedia Transfer Factors in Exposure Assessments, SAR and QSAR in Environmental Research, vol.1, issue.1, pp.4-51, 1993.
DOI : 10.1016/0045-6535(90)90226-J

R. E. Green and S. W. Karickhoff, Sorption estimates for modeling, Pesticides in the Soil Environment: Processes,lmpacts, and Modeling, 1990.

B. Von-oepen, W. Kôrdel, and W. Klein, Sorption of nonpolar and polar compounds to soils: Processes, measurements and experience with the applicability of the modified OECD-Guideline 106, Chemosphere, vol.22, issue.3-4, pp.285-304, 1991.
DOI : 10.1016/0045-6535(91)90318-8

S. M. Lambert, Omega (O), a useful index of soil sorption equilibria Influence of organic matterfrom soils and sediments from various origins on the sorption of some chlorinated aliphatic hydrocarbons: implications on Keç correlation s, J. Agric. Food Chem. ll. Grathwohl, P. Environ. Sci. T echnol, vol.6, issue.24, pp.340-343, 1968.

D. W. Rutherford, C. T. Chiou, and D. E. Kile, Influence of soil organic matter composition on the partition of organic compounds, Environmental Science & Technology, vol.26, issue.2, pp.336-340, 1992.
DOI : 10.1021/es00026a014

S. W. Karickhoff, D. S. Brown, and T. A. Scott, Sorption of hydrophobic pollutants on natural sediments, Water Research, vol.13, issue.3, pp.241-248, 1979.
DOI : 10.1016/0043-1354(79)90201-X

E. E. Kenaga and C. A. Goring, Relationship between water solubility, soil sorption, octanol-water partitioning, and concentration of chemicals in biota ASTM STP 707, pp.78-115, 1980.

G. G. Briggs, Theoretical and experimental relationships between soil adsorption, octanol-water partition coefficients, water solubilities, bioconcentration factors, and the parachor, Journal of Agricultural and Food Chemistry, vol.29, issue.5, pp.1050-1059, 1981.
DOI : 10.1021/jf00107a040

C. T. Ctriou, P. E. Porter, and D. W. Schmedding, Partition equilibria of nonionic organic compounds between soil organic matter and water, Environ. Sci. Technol, vol.17, pp.227-235, 1983.

Y. P. Chin, C. S. Peven, W. , and W. J. , Estimating soiVsediment partition coefficients for organic compounds by high performance reverse phase liquid chromatography, Wat. Res, vol.22, issue.87, pp.3-881, 1988.

S. Noegrohati and W. E. Hammers, Regression models for some solute distribution equilibria in the terrestrial environment. Toxicol. Environ. Chem-34' 175-185' 1g. sabljic, A. and protic Relationship between molecular connectivity indices and soil sorption coefficients of polycyclic aromatic hydrocarbons, Bull. Environ. Contam. Toxicol, vol.2, pp.162-165, 1982.

R. Koch, Molecular connectivity index for assessing ecotoxicological behaviour of organic compounds???, Toxicological & Environmental Chemistry, vol.31, issue.2, pp.87-96
DOI : 10.1002/jps.2600650824

. Zt and A. Sautiic, Predictions of the nature and strength of soil sorption of organic pollutants by molecular topology, J. Agric. Food Chem, vol.32, pp.243-246, 1984.

S. and A. , On rhe prediction of soil sorption coefficients of organic pollutants from molecular structure: application of molecular topology model, Environ. Sci. Technol', vol.21, pp.358-366, 1987.

W. Meylan and P. H. Howard, and contribution method for predicting, pp.1560-1567

A. Khan, J. J. Hassett, W. L. Banwart, J. C. Means, and S. G. Wood, Sorption of acetophenone by sediments and soils. soi/ sci, pp.297-302, 1979.

W. L. Banwart, J. J. Hassett, S. G. Wood, and J. C. Means, Sorption of nitrogenheterocyclic compounds by soils and sediments. Soi/ Sci, p.4247, 1982.

B. T. Walton, M. S. Hendricks, T. A. Anderson, W. H. Griest, R. '. Merriweather et al., Soil Sorption of Volatile and Semivolatile Organic Compounds in a Mixture, Journal of Environment Quality, vol.21, issue.4, pp.552-558, 1992.
DOI : 10.2134/jeq1992.00472425002100040005x

J. C. Means, S. G. Wood, J. J. Hassett, and W. L. Banwart, Sorption of amino-and carboxy-substituted polynuclear aromatic hydrocarbons by sediments and soils Transport of nonpolar organic compounds from surface water to groundwater. Laboratory sorption studies, Environ. Sci. Technol. Environ. Sci. Technol', vol.615, pp.93-98, 1981.

P. Lagas, J. C. Means, S. G. Wood, J. J. Hassett, and W. L. Banwart, Sorption of chlorophenols in the soil Sorption of polynuclear aromatic hydrocarbons by sediments and soils, Chemosphere Environ. Sci. Technol, vol.1714, pp.205-216, 1980.

C. T. Chiou, L. J. Peters, and V. H. Freed, A Physical Concept of Soil-Water Equilibria for Nonionic Organic Compounds, Science, vol.206, issue.4420, pp.831-832, 1979.
DOI : 10.1126/science.206.4420.831

C. T. Jafvert, Sorption of organic acid compounds to sediments: initial model developme nt. Env iron. T oxicol. C hem, pp.1259-1268, 1990.
DOI : 10.1897/1552-8618(1990)9[1259:sooact]2.0.co;2

R. W. Walters, S. A. Ostazeski, and A. Guiseppi-elie, Sorption of 2,3,7,8- tetrachlorodibenzo-p-dioxin from water by surface soils Molecular topologyAEragment soil sorption coefficients, Boethling, R.S. Environ. Sci. Technol', vol.26, issue.6, 1989.
DOI : 10.1021/es00181a015

C. A. Van-gestel and W. C. Ma, An approach to quantitative structure-activity relationships (QSARs) in earthworm toxicity studies, Chemosphere, vol.21, issue.8, pp.1023-1033, 1990.
DOI : 10.1016/0045-6535(90)90125-D

B. T. Bowman, C. Leuenberger, and R. P. Schwarzenbach, Conversion of Freundlich Adsorption K Values to the Mole Fraction Format and the Use of SY Values to Express Relative Adsorption of Pesticides1, Soil Science Society of America Journal, vol.46, issue.4, pp.740-743, 1982.
DOI : 10.2136/sssaj1982.03615995004600040014x

S. W. Karickhoff, Organic Pollutant Sorption in Aquatic Systems, Journal of Hydraulic Engineering, vol.110, issue.6, pp.707-735, 1984.
DOI : 10.1061/(ASCE)0733-9429(1984)110:6(707)

J. Sangster, J. M. Airtsworth, C. C. Cowan, C. E. , T. et al., Octanol-water partition coefficients of simple organic compounds Data lE, ll ll-1229 Sorption of binary mixtures of aromatic nitrogen heterocyclic compounds on subsurfarce rnaterials, Phys. Chem. Ref. Environ. Sci. Technol, vol.392, pp.7-397, 1987.

P. A. Jones, K. J. Macek, S. R. Petrocelli, C. , and J. , Chlorophenols and their Impurities in the Canadian Environment An evaluation of using partition coefficients and water solubility to estimate bioconcentration factors for organic chemicals in fish. ln, Aquatic Toxicology, ASTM STP 707, pp.116-129, 1980.

T. M. Xie, B. Hulthe, and S. Folestad, Determination of partition coefficients of chlorinated phenols, guaiacols, and catechols by shake-flask GC and HPLC. ChemosplurelS, pp.5-459, 1984.
DOI : 10.1016/0045-6535(84)90103-6

J. C. Westall, C. Leuenberger, R. P. Schwanenbach, J. De-bruijn, F. Busser et al., Influence of pH and ionic strength on the aqueous-nonaqueous distribution of chlorinated phenols Determination of octanoVwater partition coefficients for hydrophobic organic chemicals with the "slowstirring" method Polar intermolecular interactions encoded in partition coefficients: an indirect estimation of hydrogen-bond parameters of polyfunctional solutes Lange's Handbook of Chemistry, Environ. Sci. Technol. Environ. Toxicol. Chem. J. Phys. Chem, vol.19896, issue.44, pp.193-198, 1985.

P. H. Howard, Handbook of Environmental Fate and Eryosure Data for Organic Chemicals I-ewis publishers, Chelsea, p. 684. , 48 Octan-l-ofwater partition coefficients of polychlorinated dibenzo-p-dioxins and dibenzofurans: experimental values determined with a stining method, Chemasphere, vol.19, pp.263-266, 1989.

A. Leo, C. Hansch, and D. Elkins, Partition coefficients and their uses, Chemical Reviews, vol.71, issue.6, pp.525-616, 1971.
DOI : 10.1021/cr60274a001

G. W. Bailey, J. L. White, R. , T. J. Ainsworth, C. C. Felice et al., Adsorption of Organic Herbicides by Montmorillonite: Role of pH and Chemical Character of Adsorbate1, Soil Science Society of America Journal, vol.32, issue.2, pp.222-234, 1968.
DOI : 10.2136/sssaj1968.03615995003200020021x

P. Nicholls and A. A. Evans, Sorption of ionisable organic compounds by field soils. Part 1: Acids, Pesticide Science, vol.3, issue.3, pp.319-330, 1991.
DOI : 10.1007/978-94-009-5883-8

P. H. Nicholls and A. A. Evans, Sorption of lonisable organic compounds by field soils. Part 2: Cations, bases and zwitterions, Pesticide Science, vol.7, issue.3, pp.331-345, 1991.
DOI : 10.1039/df9490700090

R. E. Green, Pesticide-clay-water interactions.ln, Pesticides in, pp.3-37, 1974.

R. A. Scherrer and S. M. Howard, Use of distribution coefficients in quantitative structure-activity relations, Journal of Medicinal Chemistry, vol.20, issue.1, pp.53-58, 1977.
DOI : 10.1021/jm00211a010

R. D. Wauchope, T. M. Buttler, 4. G. Homsby, P. W. Augustijn-beckers, and J. P. Burt, The SCS/ARS/CES pesticide properties database for environmental decisionmaking, Rev. Environ. Contam. Toxicol, vol.123, pp.1-155, 1992.
DOI : 10.1007/978-1-4612-2862-2_1

T. Sato, S. Kohnosu, and J. F. , Adsorption of butachlor to soils, Journal of Agricultural and Food Chemistry, vol.35, issue.3, 1987.
DOI : 10.1021/jf00075a028

, Agric. Food Chem, vol.35, pp.397-402

L. C. Liu, H. Cibes-viadé, K. , and F. K. , Adsorption of ametryne and diuron by soils, pp.470-474, 1970.

T. H. Dao, D. Bouchard, J. Mattice, and T. L. , SOIL SORPTION OF ANILINE AND CHLOROANILINES, Soil Science, vol.141, issue.1, pp.26-30, 1986.
DOI : 10.1097/00010694-198601000-00005

O. Francioso, E. Bak, N. Rossi, and P. Sequi, Sorption of atrazine and trifluralin in relation to the physico-chemical characteristics of selected soils, Sci. Total Environ, pp.503-512, 1992.

G. Singh, W. F. Spencer, M. M. Cliath, M. Van-genuchten, and . Th, Sorption Behavior of s-Triazine and Thiocarbamate Herbicides on Soils, Journal of Environment Quality, vol.19, issue.3, pp.520-525, 1990.
DOI : 10.2134/jeq1990.00472425001900030028x

R. E. Talbert and O. H. Fletchall, The Adsorption of Some s-Triazines in Soils, Weeds, vol.13, issue.1, pp.46-52, 1965.
DOI : 10.2307/4041097

D. J. Austin and G. G. Briggs, A new extraction method for benomyl residues in soil and its application in movement and persistence studies, Pesticide Science, vol.80, issue.2, pp.2-210, 1976.
DOI : 10.1007/BF01976426

J. Achik, M. Schiavotr, and P. Jamet, Study of carbofuran movement in soils part I???soil structure, Environment International, vol.17, issue.1, pp.73-79, 1991.
DOI : 10.1016/0160-4120(91)90339-R

C. A. Van-gestel, W. C. Ma, and C. E. Smit, Development of QSARs in terrestrial ecotoxicology: earthworm toxicity and soil sorption of chlorophenols, chlorobenzenes and dichloroaniline. Sci. Total Environ. 109 I ll0, pp.589-604, 1991.

S. A. Boyd, ADSORPTION OF SUBSTITUTED PHENOLS BY SOIL, Soil Science, vol.136, issue.5, pp.337-343, 1982.
DOI : 10.1097/00010694-198211000-00007

\. Menie and C. L. Foy, Adsorption, desorption, and mobility of chlorsulfuron in soils, J. Agric. Food Chem, vol.34, pp.89-92, 1986.

A. Walker, E. G. Cotterill, and S. J. , Adsorption and degradation of 48, 1989.

, I 188 chlorsulfuron and metsulfuron-methyl in soils from different depths, Weed Res, vol.29, pp.281-287

M. C. Hermosin and J. Cornejo, Soil adsorption of 2,4???D as affected by the clay mineralogy, Toxicological & Environmental Chemistry, vol.54, issue.1, pp.3-32, 1991.
DOI : 10.1097/00010694-198201000-00004

J. J. Hassett, J. C. Means, W. L. Banwart, S. G. Wood, S. Ali et al., , 1980.

, Sorption of dibenzothiophene by soils and sediments, Environ. Qual, vol.9, pp.184-186

7. Seip, H. M. Alstad, J. Carlberg, G. E. Martinsen, K. Skaane et al., , 1986.

, Measurement of mobility of organic compounds in soils, Sci. Total Environ, vol.0, pp.87-101

P. A. Wahid and N. Sethunathan, Sorption-desorption of parathion in soils, Journal of Agricultural and Food Chemistry, vol.26, issue.1, 1978.
DOI : 10.1021/jf60215a032

, Agric. Food Chem, vol.26, pp.101-105

A. 8. Payâ-pêrez, M. Riaz, and B. R. Larsen, Soil sorption of 20 PCB congeners and six chlorobenzeîes, Ecotoxicol. Env. Safery, vol.21, p.17, 1991.

A. Cortes, J. Riego, A. B. Payâ-pérez, and B. R. Larsen, Soil sorption of coplanar and non-planar PCBs, Toxicol. Environ. Chem.Sl', vol.32, pp.79-86, 1991.

W. C. Koskinen, G. A. O-'connor, and H. H. Cheng, Characterization of Hysteresis in the Desorption of 2,4,5-T from Soils1, Soil Science Society of America Journal, vol.43, issue.5, pp.871-874, 1979.
DOI : 10.2136/sssaj1979.03615995004300050010x

A. B. Payâ-pêrez and F. Pelusio, Sorption of 3,4,5-trichloroaniline in a soil profile, Science of The Total Environment, vol.123, issue.124, pp.519-529, 1992.
DOI : 10.1016/0048-9697(92)90174-Q

L. R. Suntio, W. Y. Shiu, D. Mackay, J. N. Seiber, and D. Glotfelty, Critical Review of Henry???s Law Constants for Pesticides, Rev. Environ. Contam. Toxicol, vol.03, pp.1-59, 1988.
DOI : 10.1007/978-1-4612-3850-8_1

Z. Gerstl and C. S. Helling, Evaluation of molecular connectivity as a predictive method for the adsorption of pesticides by soils, Environ. Sci, vol.2, pp.55-69, 1987.

T. Weber, Mechanisms of adsorption of s-triazines by clay colloids and factors affecting plant availability. Re sidue, Rev, vol.32, pp.93-123, 1970.

B. T. Grayson and D. A. Kleier, Phloem mobility of xenobiotics. IV. Modelling of pesticide movement in plants, Pesticide Science, vol.23, issue.1, pp.67-79, 1990.
DOI : 10.1002/ps.2780230104

C. T. Garten and J. R. Trabalka, Evaluation of models for predicting tenestrial food chain behavior of xenobiotics, Environ. Sci. Technol. ll, pp.590-595, 1983.
DOI : 10.1021/es00116a006

E. M. Hulzebos, D. M. Adema, E. M. Dirven-van-breemen, L. Henzen, C. A. Van-gesrel et al., QSARs in phytotoxicity pKaPrediction for Organic Acids and, Bases A critical review of aqueous solubilities, vapor pressures, Henry's law constants, and octanol-water partition coefficients of the polychlorinated biphenyls Attenuation of polychlorinated biphenyls in soils 9E, I -41. r 86 Effect, and statistical evaluation, of soil sterilization on aniline and diuron adsorption isotherms, Sci. Total Environ. J. Phys. Chem. Ref. Data Rev. Environ. Contam. Toxicol. Soil Sci. Soc. Am. J, vol.0949349746, issue.15, pp.146963-969, 1981.

J. Devillers, S. Bintein, D. Dominê, and . Karcher, CHEMFRANCE: A regional level iii fugacity model applied to France, Chemosphere, vol.30, issue.3
DOI : 10.1016/0045-6535(94)00425-T

M. L. Williams, Atmospheric dispersal of pollutants and the modelling of air pollution. ln. Potlution: Causes, Effects, and Contro, Royal Society of Ctremistry, pp.201-219, 1990.

. Anonymous and . Lacs, Etangs, Retenues -Carte de Sitwtion -Notice Descriptive, p.72

, Répertoire et Fichier Technique des Plans d'Eau -Doubs 25 ' Présentation et Carte, Anonymous, 1990.

, Répertoire et Fichier Technique des Plans d'Eau ' Doubs 25 - Recueil des Données, Anonymous, 1990.

, Répertoire et Fichier Technique des Plans d'Eau -Haute'Saône 70, Territoire de Belfurt 90 -Présentation et Carte, Anonymous, 1991.

, Répertoire et Fichier Technique des Plans d'Eaw -Ilaute'Saône 70, Anonymous, 1991.

, Répertoire et Fichier Technique des Plans d'Eau -Jura 39 ' Présentation et Carte, Anonymous, 1990.

, Répertoire et Fichier Technique des Plans d'Eau' Jura 39 ' Recueil des Données, Anonymous, 1990.

, Plans d'Eau -De I'Autre Côté du Miroir Agence de Bassin Rhône Médiaenanée Corse, Institut International de Gestion et de Génie de I'Environnement, Anonymous, p.127, 1988.

, Enquête lLtilisation du Tenitoire Année 1982 Répartition du Sol Départemental Selon les Utilisations Physiques. Ministère de I'Agriculture -Service, Anonymous, 1982.

, Analyse à l, Anonymous, 1974.

J. Loup, Les EauxTerrestres -Hydrologie Continenrale, p.17

, Report of the OECD Workshop on the Application of Simpte Models for Environmental Exposure Assessment, OECD Environment Monographs no69, p.143, 1993.

. Cartepédologique-de-la-france-l, INRA, 1966.

H. Chamayou and J. P. Legros, tes Bases Physiques, p.593, 1989.

P. Duchaufour, Précis de Pédologie, p.481, 1970.

P. Duchaufour, Atlas Ecologique des SoIs du Monde, p.178, 1976.

, Atlas des Eaux Souterraines de la France, Anonymous Edition BRGM, 1970.

, Bilan des Ressources en Eau Souterraine de la France, Anonymous Arlab, p.269, 1979.

B. Lafosse, Synthèse Hydrogéologique de Ia Région Bourgogne Versant Mêditenanéen avec Extension aux Régions Champagne-Ardenne et Lorraine pour le même Versant, Anonymous, 1977.

L. Eaut-souterraines-et-l-'approvisionnernent-en-eau-de-la-france and T. /. , The Pesticide Manual, Eighth Edition. The British Crop Protection Council, National REFERENCES l. Worthing, C.p, p.1081, 1987.

R. N. Taylor, L. Farkas, and R. , lnsecticide resistance in houseflies from the Middle East and North Africa with notes on the use of various bioassay techniques Monitoring of resistance of insecticides in house fly (Musca domistica)populations in Hungary, Pestic. Sci, vol.13, pp.245-258, 1982.

E. C. Voldner and Y. F. Li, Global usage of selected persistent organochlorines, Science of The Total Environment, vol.160, issue.161, 1995.
DOI : 10.1016/0048-9697(95)04357-7

, Sci. Total Environ, vol.1606, pp.201-210

P. Isnard and S. Lambert, Modélisation du devenir des pesticides dans I'environnement: application au lindane, pp.199-207, 1987.

R. H. Cole, R. E. Frederick, R. P. Flealy, and R. G. And-rolan, Preliminary findings of the priority pollutant monitoring project of the nationwide urban runoff program, pp.898-908, 1984.

M. Marchand, (lggg) Les produits phytosanitaires agricoles et la qualité des eaux marines littorales, T.S.M. L'Eau, vol.10, p.5

A. Venant, S. Borrel, J. Mallet, and E. Gillon, Contamination in food by organochlorine compound residues from, Regulatory considerations. sci. Aliments, vol.9, pp.473-489, 1980.

L. M. Hemand-ez, M. A. Femandez, and M. J. Gonzalez, Lindane pollution near an industrial source in northeast Spain, Bull. Environ. Contam. Toxicol, vol.', pp.461-470, 1991.

L. Granier and M. Chevreuil, On the use of tree leaves as bioindicators of the contamination of air by organochlorines in France. Wat. Air Soil Poltut, pp.575-584, 1992.

A. Nair and M. K. Pillai, (lgg2) Trends in ambient levels of DDT and HCH residues in humans and the environment of Delhi, India. Sci. Total Environ, vol.2, pp.145-157

J. R. Kucklick, T. F. Bidleman, L. L. Mcconnell, M. '. Walla, and I. , Organochlorines in the water and biota of Lake Baikal, Siberia, Environmental Science & Technology, vol.28, issue.1, pp.3-37, 1994.
DOI : 10.1021/es00050a006

H. Iwata, S. Tanabe, N. Sakai, A. Nishimura, and R. Tatsukawa, Geographical distribution of persistent organochlorines in air, water and sediments from Asia and Oceania, and their implications for global redistribution from lower latitudes, Environmental Pollution, vol.85, issue.1, pp.15-33, 1994.
DOI : 10.1016/0269-7491(94)90234-8

E. Atlas and C. S. Giam, Global Transport of Organic Pollutants: Ambient Concentrations in the Remote Marine Atmosphere, Science, vol.211, issue.4478, 1981.
DOI : 10.1126/science.211.4478.163

, However, many other scenarios integrating variations in seasons, quantities, and so on could have been tested. In the same way, it should be noted that models can be coupled with sensitivity and uncertainty analyses in order to test the influence of all input parameters and assumptions on the outputs

, Canada) for his thoughtful comments This study was granted by the French Ministry of the Environment, ACKNOWLEDGMENTS

R. Worttring and C. R. , The Pesticide Manual, Eighth Edition. The British Crop Protection Council, p.1081, 1987.

W. Huber, Ecotoxicological relevance of atrazine in aquatic systems, Environmental Toxicology and Chemistry, vol.18, issue.10, pp.1865-1866, 1993.
DOI : 10.2216/i0031-8884-15-1-25.1

G. Persoon?, C. R. Janssen, and M. Van-steertegem, Extensive andUpdated Literature Study of the Toxicity and Ecotoxiciry of Atrazine, 1991.

. Montiel, Etude bibliographique, p.273, 1989.

J. K. Hall, M. Pawlus, H. , and E. R. , losses of atrazine in runoff water and soil sediment, J. Environ. Qwl. l, pp.172-176, 1972.

J. K. Hall, Erosional Losses of s-Triazine Herbicides1, Journal of Environment Quality, vol.3, issue.2, pp.174-180, 1974.
DOI : 10.2134/jeq1974.00472425000300020020x

R. D. Wauchope, The pesticide content of surface \ilater draining from agricultural fields-A review, J. Environ. Qual, pp.7-459, 1978.

M. Schiavon, Studies of 4ç leaching of atrazine, of its chlorinated derivatives, and of hydroxyatrazine from soil using, 1988.

, Ecotoxicol. Environ. Safery, vol.15, pp.46-54

R. Frank and G. J. Sirons, Atrazine: Its use in corn production and its loss to stream waters in Southern Ontario, 1975???1977, Science of The Total Environment, vol.12, issue.3, pp.223-239, 1975.
DOI : 10.1016/0048-9697(79)90088-3

H. R. Buser, Atrazine and other s-triazine herbicides in lakes and in rain in Switzerlan d. Environ. S c i. Te chnol. 24, lO49-I 05 8, Occurrence, distributions, and transport of herbicides and their degradation products in the lower Mississippi River and its tributaries, 1990.

, Environ. Sci, Technol, vol.24, pp.400-406

, Monîtoring Pesticides in Water and Defînition of the Uniform Principles: Volume 2 -Case Studies of Atrazine and Simazine, ECPA, 1992.

M. F. Legrand, . Costentin, and A. Bruchet, Occurrence of 38 pesticides in various French surface and ground waters, Environmental Technology, vol.16, issue.1, pp.5-61, 1992.
DOI : 10.1016/B978-0-08-023809-8.50024-2

I. Mirgain, C. Schenck, and H. Monteil, Atrazine contamination of groundwaters in eastern France in relation to the hydrogeological properties of the agricultural land, Environmental Technology, vol.7, issue.8, pp.741-750, 1993.
DOI : 10.1016/0147-6513(88)90027-9

D. 8. Glotfelty, J. N. Seiber, and L. A. Liljedahl, Pesticides in fog, Nature, vol.325, issue.6105, pp.602-605, 1987.
DOI : 10.1038/325602a0

D. E. Glotfelty, G. H. Williams, H. P. Freeman, and M. Leech, Regional atmospheric transport and deposition of pesticides in Maryland.ln, Lang Range Transport of pesticides Laewis Fublishers, pp.199-221, 1990.

R. P. Richards, J. W. Kramer, D. 8. Baker, and K. Krieger, Pesticides in rainwater in the northeastern United States129'131 Occurrence of triazines in the atmospheric fallout on the catchment basin of the river Mame (France), Nature, vol.327, pp.27-1605, 1987.

D. Mackay, J. Devillers, S. Bintein, W. Karcher, D. Devillers et al., Muttimedia Environmental Models. The Fugaciry Approach.laewis Publishers CHEMFRANCE: a regional level ItrI fugacity model applied to France Multivariate structureproperty relationships (MSPR) of pesticides, Chemosphere Pestic. Sci, vol.2035, issue.30, pp.73-82, 1991.

J. Devillers, W. Karcher, and P. Isnard, Graphical display of the fugacity model level I. C hemo sp here 23, pp.633-642, 1991.
DOI : 10.1016/0045-6535(91)90285-l

J. Devillers, J. Thioulouse, D. Domine, M. Chastrette, and K. , , 1991.

, Multivariate analysis of the input and output data in the fugacity model levcl I. ln, Applied Multivariate Analysis in SAR and Environmental Studies

O. Francioso, E. Bak, N. Rossi, and P. Sequi, Sorption of atrazine and trifluralin in rclation to the physico-chemical characterisiics of selected soils, Sci. Total Environ, vol.23, issue.24, pp.281-284, 1992.

E. Bacci, A. Renzoni, . Gaggi, D. Calamad, A. Franchi et al., A' (lggg). Models, field studies, laboratory experiments: an integrated approach to evaluate ttre environmental fate of atrazine (s+riazineherbicide), pp.27-513

N. Burkhard and J. A. Guth, Chemical hydrolysis of 2-chloro-4, p.6, 1981.

, triazine herbicides and their breakdown in soil under the influence of adsorption, Pestic' Sci, vol.12, pp.45-52

C. F. Reinhardt, J. G. Ehlers, and P. C. Nel, Persistence of atrazine as affected by selecred soil properties. s.-{fr. Tydskr. Plant GrondT, pp.182-187, 1990.

D. A. Winkelmann, S. J. Klaine, D. A. Klaine, and S. J. , Degradation and bound residue formation of atrazine in a Western Tennessee soil, Environmental Toxicology and Chemistry, vol.10, issue.3, pp.335-345, 1991.
DOI : 10.1007/978-1-4612-5462-1_15

B. Huart, F. M. Pailler, B. Trique, and I. Ricordel, Protocole d'étude de la diffusion d'un herbicide dans l'écosystème, Ann. Fals. Exp. Chim, vol.86, pp.75-86, 1993.

C. Malan, J. H. Visser, and H. A. Van-de-venter, Atrazine metabolism in fieldgrown maize and the effect of atrazine phytotoxicity on yield, S. Afr. J, p.2455, 1987.

G. Sirons, R. Frank, and T. Sawyer, Residues of atrazine, cyanazine, and their phytotoxicmetabolites in a clay loam soil Effécts of the herbicide atrazine and its degradation products, alone and in combination, on phototrophic microorganisms, J. Agric. Food Chem.zl Arcft . Environ. Contam-Toxicol, vol.13, pp.35-42, 1973.

A. E. Hiltbold and G. A. Tsuchanan, Influence of soil pH on persistence of atrazine in the field, Weed Sci, vol.25, pp.515-520, 1977.

C. S. Helling, W. Zhrrrng, T. J. Gish, C. Coffman, A. Isensee et al., Persistence and leaching of atrazine, alachlor' and lyanazine under no-tillage practices, Chemosphere, vol.17, pp.75-87, 1988.

G. Singh, W. F. Spencer, M. M. Iliutlt, and M. T. Van-genuchten, Dissipation of s-triazines and thiocarbamates from soil as related to soil moisture content, Environmental Pollution, vol.66, issue.3, pp.253-262, 1990.
DOI : 10.1016/0269-7491(90)90005-W

R. Atkinsotr, E. C. Tuazon, T. J. Wallington, S. M. Aschmann, J. Arey et al., Atmospheric chemistry of aniline, N,N-dimethylaniline, pyridine, 1,3,5- triazine, and nitrobenzene, Environ. Sci, vol.64, 1972.

R. D. Wauchope, T. M. Buttler, A. G. Homsby, P. W. Augustijn-beckers, and B. , (lggz)The SCS/ARS/CES pesticide properries darabase for environmental decision-making
DOI : 10.1007/978-1-4612-2862-2_1

, Rev. Environ. Contam. Toxicol, vol.123, p.164

D. Mackay, S. Paterson, N. Cheung, and W. B. , Evaluating the environmental behavior of chemicals with a level III fugacity model, Chemosphere, vol.14, issue.3-4, 1985.
DOI : 10.1016/0045-6535(85)90061-X

J. W. Readman, T. A. Albanis, D. Barcelo, S. Gatassi, J. Tronczynski et al., Herbicide contamination of Mediterranean estuarine waters: Results from a MED POL pilot survey, Marine Pollution Bulletin, vol.26, issue.11, pp.613-619
DOI : 10.1016/0025-326X(93)90500-J

J. Devillers, S. Bintein, and D. Domine, Atrazine in France, p.42, 1992.

M. Ahel, K. M. Evans, T. W. Fileman, and R. F. Mantoura, Determination of atrazine and simazine in estuarine samples by high-resolution gas chromatography and nitrogen selective detection. Anal. C him-A cta 268, pp.5-204, 1992.

K. Bester and H. Hûhnerfuss, Triazines in the Baltic and North Sea, Marine Pollution Bulletin, vol.26, issue.8, p.423427, 1993.
DOI : 10.1016/0025-326X(93)90528-R

M. Trcnczynski, J. Munschy, C. Durand, G. Barcelo, and D. , Monitoring of tracelevels of herbicides and their degradation products in the river Rhône, France, by gas chromatography-mass spectrometry. Sci, pp.327-337, 1993.

A. P. Gamerdingôr, A. T. Lemley, and R. J. Wagenet, Nonequilibrium Sorption and Degradation of Three 2-Chloro-s-Triazine Herbicides in Soil-Water Systems, Journal of Environment Quality, vol.20, issue.4, pp.815-822, 1991.
DOI : 10.2134/jeq1991.00472425002000040018x

R. E. Talbert and O. H. Fletchall, The Adsorption of Some s-Triazines in Soils, Weeds, vol.13, issue.1, pp.46-52, 1965.
DOI : 10.2307/4041097

B. T. Bowman, Mobility and persistence of alachlor, atrazine and metolachlor in plainfîeld sand, and atrazine and isazofos in honeywood silt loam, 1990.

, Environ. Toxicol. C hem, vol.9, pp.453-461

J. N. Lluckins, /. Pett, J. D. England, and D. C. , Distribution and impact of trifluralin, atrazine, and fonofos residues in microcosms simulating a northern prairie wetland' C hemo sp here 15, pp.563-588, 1986.

I. Scheunert and F. , Comparative studies of the fate of atrazine-loc and pentachlorophenol-toc in various laboratory and outdoor soil-plant systems, J. Environ, issue.7, 1986.

. Sci, , p.485

D. E. Glotfelty, M. M. Jersey, J. Taylor, and A. W. , Volatilization and wind erosion of soil surface applied atrazine, simazine, alachlor, and toxaphene, Journal of Agricultural and Food Chemistry, vol.37, issue.2, pp.546-551, 1989.
DOI : 10.1021/jf00086a059

, Statistique Agricole Annuelle Résultats Provisoires Ministère de l'Agriculture et de la Forêt, France, p.123- SZ.-eCfn OggZ). Index Phytosanitaire, AGRESTE, p.519, 1991.

K. G. Schnoor and J. L. , Statistique Agricole Annuelle. Résultats 1990-Ministère de I'Agriculture et de la Forêt Fate of alachlor and atrazine in a riparian zone field site, AGRESTE Water Environ. Res, issue.lgg2, pp.641274-283, 1991.

D. Muccio, A. Chirico, M. Dommarco, R. Funari, E. Musmeci et al., Vertical mobility of soil contamùants: preliminary results of a survey on the herbicide atrazine. Intern, 1990.

, Anal. C hem, vol.38, pp.2-22

M. Schiavon, J. M. Portal, and F. Andreux, Données actuelles sur les transferts d'atrazine dans I'environnement. A gr onomie 12, pp.129-139, 1992.
DOI : 10.1051/agro:19920201

URL : http://www.agronomy-journal.org/articles/agro/pdf/1992/02/Agronomie_0249-5627_1992_12_2_ART0001.pdf

D. Mackay, S. Paterson, S. , and W. H. , Model describing the rates of transfer processes of organic chemicals between atmosphere and water, Environmental Science & Technology, vol.20, issue.8, pp.810-816, 1986.
DOI : 10.1021/es00150a009

S. Tasli, Distribution de I'Atrazine enffe le Sol,l'Eau et les Plantes en Culture de M ais, pp.23-25, 1992.

, L(rCUI

$. Loam-sanôv, To: 5; SMC: 7 Vo Loam-sandt': T": 15; SMlC:.1Vo lnam-sandîli, pp.25-32

I. Ioam-sandi{i, 7% tnarn-sanat'i r : zsi SMC: 47o Loam-sandt'; To:25; SMC: l07o Ioamyl f: ;SMC:177o toarnf; T": 15; SMC:I77o Loami4 P:24;SMC: l77o b*fts; P:34;SMC:177o loam* P:24; SMC:57o Ioarn* P:A; SMC: 107o Ioarnyl f:24l' SMC: 157o I,oarn1{ f:24, pp.22-40

, ine sandy mediurn sand; pH: 7.7; OC:0.1; H: 30, p.3

, Very coarie sand-fine sand; pH: 7.3; @: 4.3; H: 42, p.3

, Very coarse sandy fine sand; pH: 7.4; OC: 1.5; H: 39, p.3

, Finé sand-medium sand; pIJ:7.7; OC: OG H:38, p.3

, Siltloarn*; H: 80; AR: 2, p.20

. Suna, 1;Cy:22l' Su 26; S{ 5!; W:0.224 t,o*i0; plflr:6.2;OM:2.7; Cy:26; Su 3-4; !{: {0;!: 9?9! s*autI, OM:Z, issue.7

, Sanai chy loamripu:0.1;ç,-I\4: -l.q; -r?9;St 28, pp.0-245

, Sanài ctay toamc;pH: 0.2; OM: 1.6; Û:26, Su Sd, vol.28, pp.46-46

, fine ioarn; pH: 5.9; OM: 1.1; CÏ:-6; !VC-: lJ.pV9;-T"-12! I!i8Q

, -s.s; oc: o.st; cla 17; st l4i $d; Ç9, pp.0-17

, Sitry't"l*tlpf* o.+; ôcro.9l;Cyilz; Sc 52; sd: 16; r* 100

S. Loama, SMC: 3Vo;C-o: l0 Sandy loam&; SMC: 67o;C-o:. lO Sandy loam&; SMC: l27o;C-o:' lO Sandy loam&

. Loamy-sands, SMC: l7o; Ca: l0 Loamy-sandf; SMC: 27o; Co: l0 Loarny-sandf; SMC: 47o;C.oz l0 Loamy-sandf; SMC: 27o; Ca: I

, 01 10-3-5, p.3

, 91 10-5 '1.63 rc-t-7.97 l}-t 3.6 rc'2-3, pp.105-110

, 52 105-g, pp.10-15

, 44 L0's-4.64l}'s o, pp.94-96

, 93 10-3-5.82 to'3

, 10-3-3, pp.0-3

, 49.6-149

, 63 rc-3-O, p.22

, Comparunent Multiplicative factor* Concentration range (ngll Air Waaer Soil Sediment Groundwater Coastal water 1

, tl4 Literature Cited l. Tltc Multî-Medio Fate Model: A VinI Tool for Prediaing tlu Fac-of Clwnicals

T. C. Feijtel, D. Van-Âe-meent, A. Di-guardo, J. Davies, and N. Mackay, P-ensacola, FL, 199-5. t. ù;-Ëi, PateËôn, S.; Cheung, B.; Cluntosphere, vol.8, issue.14, pp.335-374, 1985.

D. Irru-*-oy, Mtitirnedia Envirowrunmt Models. The Fugrcity Approach, p.257, 1991.

D. V. Paéson, S. Shiu, and W. , !7' S. periiËni, l.i gintein, S.; Karcher, W. Chemoiphere !\1r3, pp.9-16

'. A. Vfontiet, O. Etude-btbttographiryc, E. R. Orri, and N. , Urtfisatbn des Herbicidcs a dcs Triazhes en io*"n i.Ministère de la Siani, pp.23-24, 1989.

I. , E. Renzoni, A. Gaggi, C. Calamari, D. Franchi et al.,

. Agric, . Ecosys, R. D. Environ, . Èuttter, R. Dornmarco et al., Toxicol-1992, 123, l-164' tù" iioiiù*- Àiiràt, Ànruclle.-_Résultats' Provisoîres 1991 Ministèrc de I'Aericulture et rie 1\-:i;;;;i'nyloi**àt r.'associition de Coordination Technique Agricole Ministère de I'Agriculture et de la Forêt, France, l99L. ià i;;rr"fr*; ifirdy 6t tln fo*city and Ecotoxictty of Atrazine. Commission of fte European Communities, 1991. î4ïiitrsàù;ï; Sit"n"k, C.; Mgntgll, ÊI. Environ. Techrnl.19-?,J!r741^-75o. is. potJrioti, r.c.i s"ttnooi, iiàitiq* Agrtcole Annuclle. Résultas4G54' ii. S.ftionon, Vl.; Fortal, J.M.; Andreu x, F.-Agronornie ^1992, pp.2-220, 1990.

R. D. Wauchope and . Environ, , p.4

. Zl, . Srttéù-"-Àit,-'i, Z. Eiao, . J. Korteif, . Environ et al., Chcmosphere r?91_-. tj: H"-t;g.j pailei F.M.j Ttiqo", B.; Ri'cordel,l. A,nn. Fals.gry. Chim. 1993' 86,75-86 iO. t*ii, S. Distribwian de I'Atrazine ertre le Sol, l'E-gu et les Plantcs en Culntre de U a*. OÉ e' d'A grochimie, University o! Qrelob-l e' 1992, -p. 23' -iZ. ffo-.tins, f.fr.; fétty, f.p.; nnel'and, D.c. CJteryospl2.ere lg_816,1!_,-5-61t88. ià. pËli*,W.g.j noiiad, C.E. Eiviron. Sci.Techral.1990' 2_4, l40t6l40q ii. p"niUJt, f.; biniéin,'S.; no-ine,D. Atrazine in France iô: i, ' ii._-[Ëuà*in, f.W.; Àtb*ii Barcelo, D. Sci. Total Environ, pp.457-485, 1986.

K. R. Solomon, D. B. Baker, R. P. Richards, K. Dixgnr, and W. M. '&i-$-lgp-'s-'j-'williams, Ia p;iftJw.; i<"naoil n.f.; Giaaings, J.M.; Giesy, J.P

, Environ. Sci. Techrnl, vol.15, 1996.

5. Ôuruaor, A. Lechon, Y. Tadeo, and J. L. , Pestic. Sci, vol.37, pp.3-308, 1993.

N. Burkharâ, J. A. Guth, . Pestic, and . Sci, 4F-t?' fO. wi*"tmann ii: K.ig;r, A.; Klaine, S.J. Environ. Toxicol. Chem._199_L Environ. Toxicol, vol.12

V. R. Chemtt, J. B. Weber, J. C. Agric-stevenùn, J. C. Means, M. M. Environ et al., ' S,L4' LLZ-6 }-LLL!"6"2 7, pp.1959-1967, 0475.

, L 6,4"L7 3" 5, L 5,4"L7 1' 5' I 6, 0273.

. Tsuda, Kananwa(1978) Seguchi and Asaka (1981) Kanazawa (1981) Kanazawa (198) Oliverand Niimi Veith et aL (1980) Olivcr and Niimi (1983) Oliver and Niimi (1983) Vcith etal Smittr eial. (lDO) Oliver and Niimi (1983) Oliver and Niimi (1985) Oliver and Niimi (1983) Oliver and Niimi (1985) Oliver and Niimi, lD5) Seguchi and Asals, pp.52-56, 1934.

L. L44,

}. L4, , 1922.

}. L4,

, J, vol.614736, issue.42, pp.3-5

L. L4,

L. , , 2003.

}. , , 2003.

X. ,

, L3, vol.56, issue.124

!. and L. Lll,

L. La,

L. Lll24, , pp.3-24, 0324.

. Burte-e, Kanazawa, 1979.

. Muir-e, Loonen etaI OliverandNiimi (1983) Oliver and Niimi (1983) Schrap and Opperhuizen (190) veirh eral, 19E9) Kanazawa, 1955.

L. ,

, Z, vol.65411, issue.3

L. ,

, L1 6"LL 4, p.4

, LLZ4" L3. 6,L t

, Lr6,t3 6,LL45,r1 GLL 4. L L1 L4,L6, p.5

, L6, vol.4, p.15

, LLL6,L5 45,.L L5"L7 4, LL 5{.,L7 5, 2004.

, LL:J, vol.6, issue.5 6 5, pp.7-47

, LZ LL, vol.6, issue.7

L. L1s-tcdf&&-l-'-tetrachlorobiphenyl, L. , and \. Spehar, Spehar et af Kanazawa (1981) Burke el ar. (l9l) Tsudael al.(1992) de Bruijn and Hermens (l9l) dc Bruijn and Hermens (1991) Tsadaetal.(192) Tsuda el 4f. (1988) de Bruijn and Herrnens (l9l) de Bruijn and Hermens (191) Gobas and Schrap Mcfule Mehrle et 4t Mehrle et sr Mehrle et aI Oliver and Niimi (1985) Schrap and Oppcrhuizen (190) Oliver and Niimi (1985) Oliverand Niimi (1983) de Bruijn and Hermens (l9l) de Bruijn and Hermens (l9l) deV/olfel aI, Tetrachlorobenzene Tetmchlorobenzyltoluene \2) Oliver and Niimi (f985) Oliver and Niimi Bruijn and Hermcns (l9l) de Bruijn and Hermens (l9l) Smith et al. (199O) Oliver and Niimi (1983) Oliver and Niimi (1983) Bouraly and Millischer, pp.4-4, 1923.

L. L. , Ll 6" 4"ZL L tL 6, LL L L3. 6.4,LL L L 1 6

. Ll-l2, Z.L3, vol.5, issue.3414, 0664.

I. and L. ,

L. , , 2004.

6. and L. ,

, L7.L1,2.4

, I7, vol.5, issue.1246

!. and L. ,

!. , 6. , and L. Ll1,

L. ,

L. L44, , pp.2-5

L. ,

L. ,

, TLLL4.5.2, 2003.

L. , 5. , and L. !. , , 2004.

. Deneer and . Deneer, Mcleese Sijm and Opperhuizen, 19E3) Muir el at, pp.74-77, 1973.

, References

W. J. Adams, G. M. De-graeve, T. D. Sabourin, J. D. Cooney, and G. Mosher, Toxicity and bioconcentrati on of 2,3J,8-TCDD to fathead minnows (Pinuplntes pronaelas) Clrcmosphere l5r 1503, 1986.

M. G. Barron, Bioconcentration. Environ. Sci-Technol, vol.4, pp.6-8, 1990.

8. E. Bengtsson, M. Tarkpea, T. Sletten, G. E. Carlberg, A. Kringstad et al., , 1986.

, Bioaccumulation and effecs of sorre technical riaryl phosphate producs in fish and NiaÛa spinipes, Erviron- Toxicol. Clem, vol.5, pp.853-861

S. Bintcin, J. Devillers, and W. Karcher, Nonlinear dependence of fish bioconcentration on nocranovwater partition coefficient, SAR CSAR Environ. Res. l, pp.29-39, 1993.

M. Bo-'raly and R. J. Millischer, Bioaccumulation and elimination of tetrachlorcbenzyltoluene CICBT) by the rat and by fish, Chemosphere, vol.18, pp.2-5, 1989.

W. A. Bruggeman, L. B. Martron, D. Kooiman, and O. Hutzinger, Accumulation and elimination kinetics of di-, ri-and tetra chlorobiphenyls by goldfish after dietary and aqueous exposure, Clemosplure, vol.10, pp.81-82, 1981.

W. A. Bruggeman, A. Opperhuizen, A. Wijbengq, and O. Hutzinger, Bioaccumulation of super???lipophilic chemicals in fish, Toxicological & Environmental Chemistry, vol.8, issue.3, pp.173-174, 1984.
DOI : 10.1021/es60087a009

A. 8. Burke, . Millburn, K. R. Huckle, and D. H. Hutson, Uptake and elimination of radioactivity from rainbow rnout (Oncorhynchn ny&dss) following exposure to 114ç-nngl-2-phenyldodecane, 1991.

, Toxicol. Chem, vol.10, pp.1467-1477

'. W. Butte, K. Fox, and G. P. Zauke, Kinetics of bioaccumulation and clearance of isonreric hexachlorocyclohexanes. sci. T otal E nviron, pp.10-17, 1991.

W. Butte, A. Willig, and G. P. Zavke, Bioaccumulation of phenols in zcbrafish determined by a dynamic flow through test, 1987.

D. J. Call, L. T. Brooke, R. J. Kent, M. L. Knuth, S. H. Poirier et al., , 1987.

, Bromacil and diuron herbicides: toxicity, uptake, and elimination in freshwater fish

, Toxicol, vol.16, pp.7-613

G. E. Carlberg, K. Maltinsen, A. Kringstad, E. Gjessing, M. Grande et al., Influence of aquatic humus on the biavailability of chlorinated micropollutants in Atlantic salmon, Archives of Environmental Contamination and Toxicology, vol.8, issue.suppl. 2, pp.543-548
DOI : 10.1007/BF01056568

D. Connell and D. W. Hawker, Use of polynomial expressions to dessibe the bioconcentration of hydrophobic chemicals by fish, Ecotoxicol. Environ. Sofety, pp.161242-257, 1988.

J. De-bruijn and J. Hermens, : Correlations with the octanol/water partition coefficient, Environmental Toxicology and Chemistry, vol.106, issue.6, pp.791-804, 1991.
DOI : 10.1080/03601238409372421

P. De-voogt, . Van-hattum, P. I-eonards, J. C. Klamer, and H. Govers, Bioconcentration of polycyclic heteroaromatic hydrocarbons in the guppy (Poeciliaraiculata), 1991.

W. De-wolf, J. H. De-bruijn, W. Seinen, and J. L. Herrrens, Influence of biotransformation on the relationship benveen bioconcenration factors and octanol-water partition coefficiens, Environ. Sci-Teclnol, vol.26, pp.97-1201, 1992.

W. De-wolf, \. Seinen, and J. L. Iermens, Biotransforrnation and toxicokinetics richloroanilines in fish in relation to their hydrophobicity, Arch. Environ. Contarn.Toxicol, pp.2-110, 1993.

W. De-wolf, E. S. Yedema, W. Seinen, and J. L. Hermens, Bioconce,ntration kinetics chlorinated anilines in gupPy, Poecilia reticulata, Chenosplure, vol.2, pp.159-175, 1994.

J. W. Deneer, T. L. Sinnige, W. Seinen, and J. L. Hermens, Q'trantiative sEuchre-activity relationships for the toxicity and bioconcentration factor of nitnobenzene derivatives towards the guPpy (Paecilia reticulam), 1987.

, The Role of Bioacanuiation in Environnental Risk Assessment: Tle Aqwtic Environtraent and Related FoodWebs, ECETOC, issue.1gg5, p.2

, Technical Guidarue Docwnents in Support of tlae Conunissbn Regulation (EC) no 1488194 on Risk Assessrnerx for Exîsting Subsnnces in Accordance With Council Regulatian (EEC) no 793193, EEC, issue.lg5

Y. Fujiwara, T. Kinoshita, H. Sato, and K. I. , Biodegradation and bioconcentration of alkyl ethers. Yukagaku33' I 1 l-L14, 1984.

F. A. Gobas, K. E. Clark, W. Y. Shiu, and D. Mackay, Bioconcentration of polybrominated benzenes and biphenyls and rclated superhydrophobic chemicals in fish: role of bioavailability and elimination into the feces, Environ. Toxicol. Chem-\, pp.231-245, 1989.

F. A. Gobas and S. M. , Bioaccumulation of some polychlorinaeed dibenzopdioxins and ocachlorodibenzofuran in the guppy (P oecilia reticulata>. C hemosplure 20, pp.495-512

G. Gôrge and R. Nagel, Kinetics and metabolism of l4Clindane and l4C-atrazine in early life stages of zebrafish (Brachyfunio rerio), Chcrnosplaere, vol.21, pp.125-137, 1990.

P. Isnard, and lâmbert, s. (lgsg) Estimating biaeoncentration factors from octanol-water partition coefficient and aqueous solubility. C laernosphere L7, pp.2-34

J. 8. Mccarthy and J. F. , Effects of feeding and aemperature on uptake, elirnination and metabolisrn of benzo(a)pyrene in the bluegill sunfish (lzpomis nwcrochins) AEnt-Toxicol, pp.41-57, 1987.

\. Kalsch, R. Nagel, and K. , Uptake, elimination, and bioconcentration of ten anilines in zebrafish (Brachydanio rerio). C hennsplrcre 22, pp.35-363, 1991.

J. Kanazawa, (lgZE) Bioconcentration ratio of diazinon by freshwater fish and snail

, Toxicol, vol.20, pp.613-617

J. Kanazawa, Measurenent of the bioconcentration factors of pesticides by freshwater fish and ttrcir conelation with physicochemical properties or acute toxicities

H. Loonen, M. Tonkes, J. R. Parsons, and H. A. Govers, Biaeoncentration of polychlorinated dibenzo-pdioxins and polychlorinated dibenzofurans in guppies after aqueous exposure to a aemplex pCDD/?CDF mixture: relationship with molecular structurc, 1994.
DOI : 10.1016/0166-445x(94)90011-6

URL : https://pure.uva.nl/ws/files/2959075/653_5723y.pdf

D. Mackay, Correlation of bioconcentration factors, Environmental Science & Technology, vol.16, issue.5, 1932.
DOI : 10.1021/es00099a008

F. L. Mayer, Residue dynamics of di-2-ettrylhexyl phttralaae in f*head minnows (Pilnqhales prorrcIas), 1976.
DOI : 10.1139/f76-309

, I. Fish. Res. Board Can, vol.33, pp.2610-2613

J. F. Mccarthy and B. D. Jimenez, Reduction in bioavailibility to bluegills of polycyclic aromatic hydrocarbons bound to dissolved humic material, Environ.Toxicol. CIum, p.4, 1985.

D. W. Mcl-eese, V. Zitko, D. 8. Sergeant, L. Burridge, and C. D. Mercalfe, Lethality and accumulation of alkylphenols in aquatic fauna, pp.101723-730, 1981.

P. M. Mehrle, D. R. Buckler, E. E. Little, L. M. Smith, J. D. Petty et al., , pp.3-8

D. C. Muir, S. R. Hobden, and M. R. , Bioconcenûation of pyrettroid insecticides and DItf by rainbow troufi uptake, depuration, and effect of dissolved organic carbon, 1994.

D. C. Muir, W. K. Marshall, and G. R. Webster, Bioconcentration of PCDDs by fsh: effecs of molecular structure and water chemistry, Clunasplure, vol.14, pp.829-833

D. C. Muir, A. L. Yarechewski, and N. P. Grift, Environmenal dynamics of phosphate esten, 1983.

, Clumosplvre l2r155-1ff eSARs of bioconcentration: validity assessment of log PoMog BCF correlations, pp.43-66, 1991.

A. J. Niimi, H. B. Iaee, and G. P. Kissoon, OcunoVwata partition coefficients and bioconaentration factors of chloroninobenzenes in rainbow uout (Sahno gairdneri), Environ. Toxicol. Chem, pp.8-8, 1989.

A. J. Niimi, H. B. I-?e, and G. P. Kissoon, Kinetics of chloroguaiacols and oùer chlorinated phenolic derivatives in rainbow tout (Satno gairdnerî), Environ.Toxicol. Chen, pp.649-653, 1990.

B. G. Oliver, A. J. Niimi, B. G. Niimi, and A. J. , Bioconcenrration of chlorobcrxzenes from water by rainbow trour correlationswithpartitioncoefficientsandcnvironmentalresidues Rainbow trout bioconcentration of some halogenated aromatics frrom water at environmental concentrations, Environ.Sci.Tecbtol. Environ. Toxicol. C hem, issue.1gg3lgg4, pp.2-291

B. G. Oliver and A. J. Niimi, Bioconcentration factors of some halogenated organics for rainbow trouc limitations in their use for prediction of environmental residues, Environ. Sci.Tecbnl, issue.1gg5, pp.191842-849

A. Opperhuizen and S. M. Schrap, Relationships between aqueous oxygen concentration and uptake and elimination rates during bioconcentration of hydrophobic chemicals in fish, Environmental Toxicology and Chemistry, vol.5, issue.5, pp.335-342, 1987.
DOI : 10.1139/f65-128

A. Opperhuizetr, . Serné, and J. M. Van-der-steen, Thermodynamics of fisly'waaer and aetan-loVwater partitioning of sonp chlorinated benzenes, Environ. Sci.Teclvnl, pp.22-28, 1988.

A. Opperhuizen, E. W. Van-der-velde, F. A. Gobas, D. A. Liem, and . Van-der-steen, J.M.D, 1985.

, Relationship benreen bioconcentration in fish and steric factors of hydrophobic chemicals-Clemosplure, pp.1871-1896

A. Opperlruizen and P. I. Voors, Bioconcentration kinetics of 2,4'5-ti-and 3,3',4,4'' tenachlorobiphenyl and 2,4,5-Ei-and 3,3',4,4'-tetrachlorodiphenylether in frsh, 1987.

S. M. Schrap and A. Opperhuizen, Relationship betrreen bioavailability and hydrcphobicity: rcduction of the upuke of organic chemicals by frsh due to the sorption on particles, 1990.

K. Seguchi and S. Asaka, Intake and excretion of diazinon in freshwaterfishes, Bnll. Environ.Contan, 1981.
DOI : 10.1007/bf01611016

, Toxicol, pp.244-249

M. R. Servos, D. C. Muir, and G. R. Webster, The effect of dissolved organic mattetr on ttp bioavailability of polychlorinated dibenzo-p-dioxins. Aqrct-Tortcol, pp.169-184, 1939.

D. T. Sijm and A. Opperhuizen, Bioransformation, bioaccumulation and lettrality of 2,8- dichlorodibenzopdioxin: a proposal to explain the biotic fate and toxicity of PCDD's and PCDF's, 1988.

, Chemosphere, vol.17, pp.83-99

D. T. Sijm, M. Schipper, and A. Opperhuizen, TOXICOKINETICS OF HALOGENATED BENZENES IN FISH: LETHAL BODY BURDEN AS A TOXICOLOGICAL END POINT, Environmental Toxicology and Chemistry, vol.12, issue.6, pp.lllT-lln, 1993.
DOI : 10.1897/1552-8618(1993)12[1117:TOHBIF]2.0.CO;2

A. D. Smith, A. Bharaù, C. Mallard, D. Orr, L. S. Mccarty et al., Bioconcentration kinetics of some chlorinated benzenes and chlorinated phenols in American flagfish, (Goode and Bean), Chemosphere, vol.20, issue.3-4, pp.379-386, 1990.
DOI : 10.1016/0045-6535(90)90068-5

G. R. Southworth and J. Beauchamp, Accumulation of acridine from water, food, and sediment by the fathead minnow, Pimeplnles promelas, Water Air Soil Pollut, vol.2, pp.331-341, 1979.

A. Spacie, P. F. Landrum, and G. J. , Uptake, depuration, and biotransformation of anthracene and benzo[a]pyrcne in bluegill sunfish, Ecotoxicol. Environ, pp.330-341, 1983.

R. L. Spehar, D. K. Tanner, and B. R. Nordling, Toxicity of the synthetic pyrethroids, pernrethrin and AC222,705 and their accumulation in early life stages of fathead minnows and snails, pp.7-182, 1983.

K. Sugiura, M. Aoki, S. Kaneko, I. Daisaku, Y. Komatsu et al., , 1984.

, Fate of 2,4,6trichlorophenol, pentachlorophenol, p-chlorobiphenyl, and hexachlorobenzene in an outdoor experimental pond: comparison between observations and predictions based on laboratory data-Arch

, Contarn. Toxicol, vol.13, issue.7, pp.45-52

M. Tachikawa, R. Sawamura, S. Okada, and A. Hamada, Differences between freshwater and seawater killifish (Oryzias latipes) in the accumulation and elimination of pentachlorophenol, Archives of Environmental Contamination and Toxicology, vol.11, issue.1, pp.146-147, 1991.
DOI : 10.1007/BF01055570

Y. Takimoto, M. Ohshimâ, and J. Miyamoto, Comparative metabolism of fenitrothion in aquatic organisms, Ecotoxicology and Environmental Safety, vol.13, issue.1, pp.104-117, 1987.
DOI : 10.1016/0147-6513(87)90048-0

Y. Takimoto, M. Ohshima, H. Yamada, and J. Miyamoto, Fate of fenimothion in several developmental srages of the killfish (Oryztas latipes), Arch. Environ. Contarn. Toxicol, pp.13-579, 1984.

T. Tsuda, S. Aoki, T. Inoue, and M. Kojima, Accumulation and exsretion of diazinon, fenthion and fenitrothion by killifish: comparison of individual and mixed pesticides, Water Res, 1995.

T. Tsuda, S. Aoki, M. Kojima, and T. Fujita, Accumulation and excretion of organophosphorous pesticides by willow shiner, Chemosphere, vol.25, issue.12, pp.1945-1951, 1992.
DOI : 10.1016/0045-6535(92)90033-N

T. Tsuda, S. Aoki, M. Kojima, and T. Fujita, Accumulation and excretion of chloroanilines by carp, Chemosphere, vol.26, issue.12, 1993.
DOI : 10.1016/0045-6535(93)90356-A

T. Tsuda, S. Aoki, M. Kojima, and H. Harada, Bioconcentration and exsretion of benthiocarb and simeryne by willow shiner, Toxicol-Environ. Chem.lS, pp.3-36, 1988.
DOI : 10.1080/02772248809357306

G. D. Veith, D. L. Defoe, and B. V. Bergstedt, Measuring and Estimating the Bioconcentration Factor of Chemicals in Fish, Journal of the Fisheries Research Board of Canada, vol.36, issue.9, pp.1040-1048, 1979.
DOI : 10.1139/f79-146

G. D. Veith, K. J. Macek, S. R. Petrocelli, C. , and J. , An evaluation of using partition coefficients and water solubility to estimate bioconcentration factors for organic chemicals in fish. ln, Aqtatic Toxicology, pp.116-129, 1980.

L. Vigano, S. Galassi, and M. Gatto, Factors affecting the bioconcentration of hexachlorocyclohexanes in early life stages of Oncorhynchrts mykiss, Environ.Toxicol. Chem.ll, pp.535-540, 1992.